コード例 #1
0
ファイル: Program.cs プロジェクト: avivshafir/ExamQuestions
        public static void Main(string[] args)
        {
            Console.WriteLine("Start Tests");

            bt.insert("www.spam0.co.il", 50);
            bt.insert("www.spam1.co.il", 60);
            bt.insert("www.spam2.co.il", 40);
            bt.insert("30", 30);
            bt.insert("20", 20);
            bt.insert("35", 35);
            bt.insert("45", 45);
            bt.insert("44", 44);
            bt.insert("46", 46);
            Console.WriteLine("Number of nodes in the tree = {0}\n", bt.count());

            var result = TestLegalMessage(new Message {
                RecieverUrl = "www.spam1.co.il", SenderUrl = "www.google.co.il"
            });

            if (result == MessageResult.Drop)
            {
                Console.WriteLine("message is spam and was dropped");
            }
            else
            {
                Console.WriteLine("message is ok and kept");
            }

            result = TestLegalMessage(new Message {
                RecieverUrl = "www.spam1.co.il", SenderUrl = "www.spam2.co.il"
            });
            if (result == MessageResult.Drop)
            {
                Console.WriteLine("message is spam and was dropped");
            }
            else
            {
                Console.WriteLine("message is ok and kept");
            }

            result = TestLegalMessage(new Message {
                RecieverUrl = "www.test1.co.il", SenderUrl = "www.test2.co.il"
            });
            if (result == MessageResult.Drop)
            {
                Console.WriteLine("message is spam and was dropped");
            }
            else
            {
                Console.WriteLine("message is ok and kept");
            }


/*			Console.WriteLine ("Original: " + bt.drawTree());
 *                      bt.delete ("40");
 *                      Console.WriteLine ("Delete node 40: " + bt.drawTree());
 *                      bt.delete ("45");
 *                      Console.WriteLine ("Delete node 45: " + bt.drawTree());
 *
 *                      Console.WriteLine ("\nSimple one layered tree");
 *                      bt = new TBinarySTree ();
 *                      bt.insert ("50", 50);
 *                      bt.insert ("20", 20);
 *                      bt.insert ("90", 90);
 *                      Console.WriteLine ("\nOriginal: " + bt.drawTree());
 *                      bt.delete ("50");
 *                      Console.WriteLine ("Delete node 50: " + bt.drawTree());
 *
 *                      bt = new TBinarySTree ();
 *                      bt.insert ("50", 50);
 *                      bt.insert ("20", 20);
 *                      bt.insert ("90", 90);
 *                      Console.WriteLine ("\nOriginal: " + bt.drawTree());
 *                      bt.delete ("20");
 *                      Console.WriteLine ("Delete node 20: " + bt.drawTree());
 *
 *                      bt = new TBinarySTree ();
 *                      bt.insert ("50", 50);
 *                      bt.insert ("20", 20);
 *                      bt.insert ("90", 90);
 *                      Console.WriteLine ("\nOriginal: " + bt.drawTree());
 *                      bt.delete ("90");
 *                      Console.WriteLine ("Delete node 90: " + bt.drawTree());
 *                      bt.delete ("20");
 *                      Console.WriteLine ("Delete node 20: " + bt.drawTree());
 *                      bt.delete ("50");
 *                      Console.WriteLine ("Delete node 50: " + bt.drawTree());
 *
 *                      Console.WriteLine ("\n");
 *                      bt = new TBinarySTree ();
 *                      bt.insert ("L", 1);
 *                      bt.insert ("D", 2);
 *                      bt.insert ("C", 3);
 *                      bt.insert ("A", 4);
 *                      bt.insert ("H", 5);
 *                      bt.insert ("F", 6);
 *                      bt.insert ("J", 7);
 *                      bt.insert ("P", 8);
 *                      Console.WriteLine ("Original: " + bt.drawTree());
 *                      bt.delete ("J");
 *                      Console.WriteLine ("Delete J: " + bt.drawTree());
 *                      bt.delete ("C");
 *                      Console.WriteLine ("Delete C: " + bt.drawTree());
 *                      bt.delete ("L");
 *                      Console.WriteLine ("Delete L: " + bt.drawTree());
 *                      bt.delete ("D");
 *                      Console.WriteLine ("Delete D: " + bt.drawTree());
 *                      bt.delete ("A");
 *                      Console.WriteLine ("Delete A: " + bt.drawTree());*/

            Console.ReadLine();
        }
コード例 #2
0
        // This is the code that was used to generate the performance
        // graphs in the codeproject article.
        static void Main(string[] args)
        {
            Console.WriteLine("Start Tests");
            PerformanceTimer pt     = new PerformanceTimer();
            Random           random = new Random();
            TBinarySTree     bt;
            Hashtable        ht;

            int[] dataSizeArray = new int[22] {
                1000, 5000, 10000, 20000, 30000,
                40000, 50000, 60000, 80000,
                100000, 120000, 140000, 160000, 180000,
                200000, 250000, 300000, 400000, 500000,
                750000, 1000000, 1000000
            };
            const int numberOfIntervals = 22;

            string[]   values = new string[10000000];            // Max number, ever
            TextWriter tw     = new StreamWriter(@"D:\NET\eLearning\BinaryTree\test.txt");

            try {
                // Number of trials in a particular interval run
                int trials = 20000;

                tw.WriteLine("Start Tests, number of intervals: {0}\n", numberOfIntervals);
                tw.WriteLine("Number of trials in each interval: {0}\n", trials);
                for (int nn = 0; nn < numberOfIntervals; nn++)
                {
                    Console.WriteLine("\nNumber of symbols to insert {0}", dataSizeArray[nn]);

                    // Generate the keys that will stored in the tables
                    for (int i = 0; i < dataSizeArray[nn]; i++)
                    {
                        values[i] = randomString(random, 10, true);
                    }

                    double meanBt = 0;                      // Mean time for binary search tree
                    double meanHt = 0;                      // Mean time for hash table
                    int    index;

                    double[] timeBt = new double[trials];
                    double[] timeHt = new double[trials];

                    // Insert data into binary search tree
                    bt = new TBinarySTree();
                    for (int i = 0; i < dataSizeArray[nn]; i++)
                    {
                        bt.insert(values[i], i);
                    }

                    // Insert data into hash table
                    ht = new Hashtable();
                    for (int i = 0; i < dataSizeArray[nn]; i++)
                    {
                        ht.Add(values[i], i.ToString());
                    }

                    // Data in place, ready to time retrieval.

                    // Retrieve data from a tree/table 'trial times' Eg
                    // retrieve 20,000 times (trials) from a
                    // binary tree that contains 500,000 items (dataSizeArray)
                    for (int k = 0; k < trials; k++)
                    {
                        if (k % 4000 == 0)
                        {
                            Console.WriteLine("{0}", k.ToString());
                        }
                        // Pick a value at random from the value array, 0
                        // to the number of values in the dataSizeArray array.
                        // Eg, assume nn = 5th trial, dataSizeArray[4] = 30000
                        // We pick a number from a random location in values[0->30000]
                        // and time how long to takes to retrieve it.
                        // For each interval we store all the trial times, then
                        // comput their average and standard deviation.

                        // Binary Search Tree
                        index = random.Next(dataSizeArray[nn]);
                        pt.Start();
                        bt.findSymbol(values[index]);
                        pt.Stop();
                        timeBt[k] = pt.DurationSeconds;

                        // Hash Table
                        index = random.Next(dataSizeArray[nn]);
                        pt.Start();
                        ht[values[index]].ToString();
                        pt.Stop();
                        timeHt[k] = pt.DurationSeconds;
                    }
                    // Compute the mean time
                    for (int i = 0; i < trials; i++)
                    {
                        meanBt = meanBt + timeBt[i];
                        meanHt = meanHt + timeHt[i];
                    }
                    meanBt = meanBt / trials;
                    meanHt = meanHt / trials;

                    Console.WriteLine();
                    Console.WriteLine("\nAverage Time for Binary Tree = {0}", meanBt);
                    // Compute standard deviation
                    double sd = 0;
                    for (int i = 0; i < trials; i++)
                    {
                        sd = sd + (timeBt[i] - meanBt) * (timeBt[i] - meanBt);
                    }
                    sd = Math.Sqrt(sd / trials);
                    // CV = coefficient of variation
                    Console.WriteLine("Standard deviation = {0}, CV = {1}", sd, sd / meanBt);

                    Console.WriteLine("\nAverage time for Hash Table = {0}", meanHt);
                    sd = 0;
                    for (int i = 0; i < trials; i++)
                    {
                        sd = sd + (timeHt[i] - meanHt) * (timeHt[i] - meanHt);
                    }
                    sd = Math.Sqrt(sd / trials);
                    Console.WriteLine("Standard deviation = {0}, CV = {1}", sd, sd / meanHt);

                    tw.WriteLine("{0} {1} {2}", dataSizeArray[nn], meanBt, meanHt);
                }
            } finally {
                tw.Close();
            }

            // Deletion tests
            Console.WriteLine("Test Deletion method\n");

            bt = new TBinarySTree();
            bt.insert("50", 50);
            bt.insert("60", 60);
            bt.insert("40", 40);
            bt.insert("30", 30);
            bt.insert("20", 20);
            bt.insert("35", 35);
            bt.insert("45", 45);
            bt.insert("44", 44);
            bt.insert("46", 46);
            Console.WriteLine("Number of nodes in the tree = {0}\n", bt.count());

            Console.WriteLine("Original: " + bt.drawTree());
            bt.delete("40");
            Console.WriteLine("Delete node 40: " + bt.drawTree());
            bt.delete("45");
            Console.WriteLine("Delete node 45: " + bt.drawTree());

            Console.WriteLine("\nSimple one layered tree");
            bt = new TBinarySTree();
            bt.insert("50", 50);
            bt.insert("20", 20);
            bt.insert("90", 90);
            Console.WriteLine("\nOriginal: " + bt.drawTree());
            bt.delete("50");
            Console.WriteLine("Delete node 50: " + bt.drawTree());

            bt = new TBinarySTree();
            bt.insert("50", 50);
            bt.insert("20", 20);
            bt.insert("90", 90);
            Console.WriteLine("\nOriginal: " + bt.drawTree());
            bt.delete("20");
            Console.WriteLine("Delete node 20: " + bt.drawTree());

            bt = new TBinarySTree();
            bt.insert("50", 50);
            bt.insert("20", 20);
            bt.insert("90", 90);
            Console.WriteLine("\nOriginal: " + bt.drawTree());
            bt.delete("90");
            Console.WriteLine("Delete node 90: " + bt.drawTree());
            bt.delete("20");
            Console.WriteLine("Delete node 20: " + bt.drawTree());
            bt.delete("50");
            Console.WriteLine("Delete node 50: " + bt.drawTree());

            Console.WriteLine("\n");
            bt = new TBinarySTree();
            bt.insert("L", 1);
            bt.insert("D", 2);
            bt.insert("C", 3);
            bt.insert("A", 4);
            bt.insert("H", 5);
            bt.insert("F", 6);
            bt.insert("J", 7);
            bt.insert("P", 8);
            Console.WriteLine("Original: " + bt.drawTree());
            bt.delete("J");
            Console.WriteLine("Delete J: " + bt.drawTree());
            bt.delete("C");
            Console.WriteLine("Delete C: " + bt.drawTree());
            bt.delete("L");
            Console.WriteLine("Delete L: " + bt.drawTree());
            bt.delete("D");
            Console.WriteLine("Delete D: " + bt.drawTree());
            bt.delete("A");
            Console.WriteLine("Delete A: " + bt.drawTree());

            Console.ReadLine();
        }